IEEE Photonics Journal (Jan 2017)

Analysis of the ‘Anti-scattering’ Capacity of Computational Ghost Imaging System in Solid Scattering Material

  • Ruiqing He,
  • Wenwen Zhang,
  • Baoqing Sun,
  • Miguel A. Olvera,
  • Zitao Lin,
  • Qian Chen

DOI
https://doi.org/10.1109/JPHOT.2017.2773470
Journal volume & issue
Vol. 9, no. 6
pp. 1 – 10

Abstract

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Recent researches showed that the traditional ghost imaging (TGI) using pseudothermal light can be affected by the solid scattering material placed between the object and the light source. This scattering case might also affect the computational ghost imaging (CGI) and is considered in this paper. Different from the TGI system modeled by Huygens-Fresnel theory in continuous coordinates, in CGI the use of computer-generated patterns with the controllable size (d) of each pixel discretizes the object space into the d-based pixel-grids. Therefore, how the CGI system is affected by the scatters depends on the distribution of the scattered light on these discretized grids instead of in continuous coordinates, which has not been explored. In this paper, we demonstrate that the “anti-scattering” capacity of CGI is governed by the discrete point-scattering-function (DPSF) that is determined by w0/d (w0: the width of point-scattering-function of the scatters). We show that the blurry effect on the reconstructed image is visible as d w0/2 ,but can be highly restrained as d increasing to be comparable to w0/2 or larger. Furthermore, d determines the spatial resolution power of CGI. In the given CGI system, the minimum d of ~ w 5 0 could be achieved with maintaining the behavior of “scattering-free”.

Keywords